Abundance of the chemical elements: Encyclopedia II - Abundance of the chemical elements - Abundance of elements in Earth

Abundance of the chemical elements - Abundance of elements in Earth

Scientists believe that the Earth formed from the same cloud of matter that formed the Sun.

Abundance of the chemical elements - Abundance of elements in Earth's crust

The graphic below illustrates the relative abundance of the chemical elements in Earth's upper continental crust.

Many of the elements shown in the graphic are classified into (partially overlapping) categories:

1. rock-forming elements (major elements in green field and minor elements in light green field);

1. rare earth elements (lanthanides, La-Lu, and Y; labeled in blue);

1. major industrial metals (global production >~3×10⁷ kg/year; labeled in bold);

1. precious metals (italic);

1. the nine rarest "metals" — the six platinum group elements plus Au, Re, and Te (a metalloid).

Note that there are two breaks where the unstable, and very rare (as they are only produced through the decay chains of other radioactive elements (for example, uranium or thorium)), technetium (atomic number: 43) and promethium (atomic number: 61) would be. There are also breaks where the six noble gases would be as they are found in the Earth's crust due to decay chains from radioactive elements and are therefore not included. The six very rare, highly radioactive elements (polonium, astatine, francium, radium, actinium and protactinium) have such low natural abundances that they are not included or their natural adundances are not known as they are so low.

Oxygen and silicon are notably common because they together are the only components of several common minerals.

"Rare" earth elements is a historical misnomer; persistence of the term reflects unfamiliarity rather than true rarity. The more abundant rare earth elements are each similar in crustal concentration to commonplace industrial metals such as chromium, nickel, copper, zinc, molybdenum, tin, tungsten, or lead. Even the two least abundant rare earth elements (Tm, Lu) are nearly 200 times more common than gold. However, in contrast to ordinary base and precious metals, rare earth elements have very little tendency to become concentrated in exploitable ore deposits. Consequently, most of the world's supply of rare earth elements comes from only a handful of sources.

Differences in abundances of individual rare earth elements in the upper continental crust of Earth represent the superposition of two effects, one nuclear and one geochemical. First, rare earth elements with even atomic numbers (₅₈Ce, ₆₀Nd, ...) have greater cosmic and terrestrial abundances than adjacent rare earth elements with odd atomic numbers (₅₇La, ₅₉Pr, ...). Second, the lighter rare earth elements are more incompatible (because they have larger ionic radii) and therefore more strongly concentrated in the continental crust than the heavier rare earth elements. In most rare earth deposits, the first four rare earth elements - La, Ce, Pr, and Nd - constitute 80 to 99% of the total.

Abundance of the chemical elements - Ocean

See sea water for abundance of elements in the ocean, but note that that list is by mass - a list by molarity would look very different, especially as regards the first 4 elements; specifically, hydrogen would comprise well over half of such a list.

Abundance of the chemical elements - Atmosphere

The order of elements in the atmosphere is nitrogen (78.1%), oxygen (20.9%), argon (roughly 1%), followed by (in uncertain order) carbon and hydrogen. The carbon and hydrogen concentrations are variable for a number of reasons, including human activity. Sulfur, phosphorus, and all other elements are present in significantly lower proportions.

According to the above graphic, argon, a significant if not major component of the atmosphere, does not appear in the crust at all.

Abundance of the chemical elements - Organisms

The abundance of elements compared to carbon element* (taken from Mary K. Campbell, Shawn O. Farrell - Biochemistry)

 * number of atoms for a thousand carbon atoms.

Abundance of the chemical elements - Human body

Most of the human body is made up of water, H2O, with cells consisting of 65-90% water by weight. Therefore, it isn't surprising that most of a human body's mass is oxygen. Carbon, the basic unit for organic molecules, comes in second. 99% of the mass of the human body is made up of just six elements: oxygen, carbon, hydrogen, nitrogen, calcium, and phosphorus.

• Oxygen (65%)
• Carbon (18%)
• Hydrogen (10%)
• Nitrogen (3%)
• Calcium (1.5%)
• Phosphorus (1.0%)
• Potassium (0.35%)
• Sulfur (0.25%)
• Sodium (0.15%)
• Magnesium (0.05%)
• Copper, Zinc, Selenium, Molybdenum, Fluorine, Chlorine, Iodine, Manganese, Cobalt, Iron (0.70%)
• Lithium, Strontium, Aluminum, Silicon, Lead, Vanadium, Arsenic, Bromine (trace amounts)

Found at: http://chemistry.about.com/cs/howthingswork/f/blbodyelements.htm

Reference: H. A. Harper, V. W. Rodwell, P. A. Mayes, Review of Physiological Chemistry, 16th ed., Lange Medical Publications, Los Altos, California 1977.

Adapted from the Wikipedia article "Abundance of elements in Earth", under the G.N U Free Docmentation License. Please also see http://en.wikipedia.org/wiki